| Literature DB >> 28218542 |
Bin Wang1, Ming Huang1,2, Na Yeon Kim1,2, Benjamin V Cunning1, Yuan Huang1, Deshun Qu3, Xianjue Chen1, Sunghwan Jin1, Mandakini Biswal1, Xu Zhang1, Sun Hwa Lee1, Hyunseob Lim1, Won Jong Yoo3, Zonghoon Lee1,2, Rodney S Ruoff1,4,2.
Abstract
Folded graphene in which two layers are stacked with a twist angle between them has been predicted to exhibit unique electronic, thermal, and magnetic properties. We report the folding of a single crystal monolayer graphene film grown on a Cu(111) substrate by using a tailored substrate having a hydrophobic region and a hydrophilic region. Controlled film delamination from the hydrophilic region was used to prepare macroscopic folded graphene with good uniformity on the millimeter scale. This process was used to create many folded sheets each with a defined twist angle between the two sheets. By identifying the original lattice orientation of the monolayer graphene on Cu foil, or establishing the relation between the fold angle and twist angle, this folding technique allows for the preparation of twisted bilayer graphene films with defined stacking orientations and may also be extended to create folded structures of other two-dimensional nanomaterials.Entities:
Keywords: Graphene; fold; single crystal; twisted bilayer
Year: 2017 PMID: 28218542 DOI: 10.1021/acs.nanolett.6b04459
Source DB: PubMed Journal: Nano Lett ISSN: 1530-6984 Impact factor: 11.189